Universität zu Köln

Nettersheim, Felix Sebastian, Lemties, Julian, Braumann, Simon, Geissen, Simon, Bokredenghel, Senai, Nies, Richard, Hof, Alexander ORCID: 0000-0001-6554-8892, Winkels, Holger, Freeman, Bruce A., Klinke, Anna, Rudolph, Volker, Baldus, Stephan, Mehrkens, Dennis ORCID: 0000-0002-8578-0290, Mollenhauer, Martin ORCID: 0000-0002-3220-9269 and Adam, Matti (2022). Nitro-oleic acid reduces thoracic aortic aneurysm progression in a mouse model of Marfan syndrome. Cardiovasc. Res., 118 (9). S. 2211 - 2226. OXFORD: OXFORD UNIV PRESS. ISSN 1755-3245

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Abstract

Aims Marfan syndrome (MFS) is a connective tissue disorder caused by mutations in the Fibrillin-1 gene. It is associated with formation of thoracic aortic aneurysms that can potentially be a life-threatening condition due to aortic rupture or dissection. Excessive non-canonical transforming growth factor beta signalling, mediated by activation of extracellutar signal-regulated kinases 1/2 (ERK1/2), as well as inducible nitric oxide synthase (NOS2)-dependent nitric oxide production, have been identified to drive aortic pathology in MFS through induction of elastin fragmentation and smooth muscle cell apoptosis. Despite promising results in animal studies, specific pharmacological interventions approved for clinical use in patients with MFS-related aortic disease are rare. Nitro-oleic acid (NO2-OA) is an endogenously generated signalling modulator, which is available as an oral compound and has been shown to inhibit ERK1/2 activation and NOS2 expression in different disease models, thereby exerting promising therapeutic effects. In this study, we investigated whether NO2-OA decreases aortic dilation in MFS. Methods and results Eight-week-old MFS (Fbn1(C1041G+)) mice were treated with NO2-OA or vehicle for 4 weeks via subcutaneously implanted osmotic minipumps. Echocardiography indicated progressive ascending aortic dilation and wall stiffening in MFS mice, which was significantly attenuated by NO2-OA treatment. This protective effect was mediated by inhibition of aortic ERK1/2, Smad2 as well as nuclear factor kappa B overactivation and consequent attenuation of etastin fragmentation by matrix metattoproteinase 2, apoptosis, and collagen deposition. Critically, the therapeutic efficacy of NO2 -OA in MFS was further emphasized by demonstrating its capability to reduce lethal aortic complications in Fbn1(C1041G/+) mice challenged with Angiotensin II. Conclusion NO2-OA distinctly attenuates progression of aortic dilation in MFS via modulation of well-established disease-mediating pathways, thereby meriting further investigation into its application as a therapeutic agent for the treatment of this condition. [GRAPHICS] .

Item Type:	Journal Article
Creators:	Creators Email ORCID ORCID Put Code Nettersheim, Felix Sebastian UNSPECIFIED UNSPECIFIED UNSPECIFIED Lemties, Julian UNSPECIFIED UNSPECIFIED UNSPECIFIED Braumann, Simon UNSPECIFIED UNSPECIFIED UNSPECIFIED Geissen, Simon UNSPECIFIED UNSPECIFIED UNSPECIFIED Bokredenghel, Senai UNSPECIFIED UNSPECIFIED UNSPECIFIED Nies, Richard UNSPECIFIED UNSPECIFIED UNSPECIFIED Hof, Alexander UNSPECIFIED orcid.org/0000-0001-6554-8892 UNSPECIFIED Winkels, Holger UNSPECIFIED UNSPECIFIED UNSPECIFIED Freeman, Bruce A. UNSPECIFIED UNSPECIFIED UNSPECIFIED Klinke, Anna UNSPECIFIED UNSPECIFIED UNSPECIFIED Rudolph, Volker UNSPECIFIED UNSPECIFIED UNSPECIFIED Baldus, Stephan UNSPECIFIED UNSPECIFIED UNSPECIFIED Mehrkens, Dennis UNSPECIFIED orcid.org/0000-0002-8578-0290 UNSPECIFIED Mollenhauer, Martin UNSPECIFIED orcid.org/0000-0002-3220-9269 UNSPECIFIED Adam, Matti UNSPECIFIED UNSPECIFIED UNSPECIFIED
URN:	urn:nbn:de:hbz:38-679430
DOI:	10.1093/cvr/cvab256
Journal or Publication Title:	Cardiovasc. Res.
Volume:	118
Number:	9
Page Range:	S. 2211 - 2226
Date:	2022
Publisher:	OXFORD UNIV PRESS
Place of Publication:	OXFORD
ISSN:	1755-3245
Language:	English
Faculty:	Unspecified
Divisions:	Unspecified
Subjects:	no entry
Uncontrolled Keywords:	Keywords Language CONJUGATED LINOLEIC-ACID; NITRATED FATTY-ACIDS; MURINE MODEL; ANGIOTENSIN-II; ACTIVATION; CONTRIBUTES; DILATATION; MICE; GENERATION; PROTECTS Multiple languages Cardiac & Cardiovascular Systems Multiple languages
URI:	http://kups.ub.uni-koeln.de/id/eprint/67943